Allergies and risk of head and neck cancer: a case–control study

Although the relationship between allergies and cancer has been investigated extensively, the role of allergies in head and neck cancer (HNC) appears less consistent. It is unclear whether allergies can independently influence the risk of HNC in the presence of substantial environmental risk factors, including consumption of alcohol, betel quid, and cigarettes. This study aims to find this association. We examined the relationship between allergies and HNC risk in a hospital-based case–control study with 300 cases and 375 matched controls. Logistic regression models were used to estimate odds ratios (OR) and 95% confidence intervals, controlling for age, sex, tobacco smoking and opium usage history, alcohol consumption, and socioeconomic status. Our study showed a significant reduction in the risk of HNC associated with allergy symptoms after adjusting for confounders. The risk of HNC was greatly reduced among those with any type of allergy (OR 0.42, 95% CI 0.28, 0.65). The ORs were considerably reduced by 58–88% for different kinds of allergies. The risk of HNC reduction was higher in allergic women than in allergic men (71% vs. 49%). Allergies play an influential role in the risk of HNC development. Future studies investigating immune biomarkers, including cytokine profiles and genetic polymorphisms, are necessary to further delineate the relationship between allergies and HNC. Understanding the relationship between allergies and HNC may help to devise effective strategies to reduce and treat HNC.


Control selection
The IROPICAN is a multicenter case-control study conducted across 10 provinces of Iran from 2016 to 2020.IROPICAN successfully enrolled 3477 controls.These controls comprised the control pool from which we selected potential control subjects for our study 20 .We selected an age, sex, and residence-matched control for each case from the IROPICAN database.The data-based contained about 800 potential controls for HNSCC cases.By power estimation, 379 controls could support 80% of the power for OR 0.5.These potential controls consisted of hospital visitors who were either relatives or friends of patients admitted to non-oncology wards, or those who visited the hospital for reasons unrelated to cancer diagnosis or treatment at the time.To mitigate selection bias, we excluded emergency rooms and maternity wards from control recruitment, as their referral patterns were often influenced by the proximity of residences.For example, individuals injured in accidents were typically directed to the nearest emergency room.Additionally, the increased incidence of car collisions among drug and alcohol users further justified this exclusion.Controls were recruited from the same hospitals as the cases or from comparable referral hospitals within the catchment area.To qualify, controls also had to have no history of cancer as reported by themselves [18][19][20][21][22] .

Data collection
Through face-to-face interviews, a systematized questionnaire was used by trained interviewers for both control and case groups.This questionnaire contained complete data on demographic information, history of opium, tobacco, and alcohol use, socioeconomic status, and oral health status.Detailed questionnaires and opium exposure measurements were illustrated elsewhere 18 .
Besides the primary questionnaire, another questionnaire on allergies was filled out via telephone.The allergy questionnaire included demographics and a history of allergic rhinitis, asthma, eczema/atopic dermatitis, and food and drug allergy 23 .Phone numbers were collected in the personal contact information section of the first questionnaire.The two questionnaires were linked by a unique code which the executive manager of the study only decoded.The response rate of cases and controls was 74% and 67%,exploring demographic characteristics showed no difference between participants of the study and those who refused participation (P = 0.9).All methods were carried out following Helsinki guidelines and regulations.All experimental protocols were approved by the Tehran University of Medical Sciences ethical committee.Informed consent was obtained from all subjects and/or their legal guardian(s).

Statistical analysis
Stata, version 14 (Stata Corp, College Station, Texas) was used for all statistical analysis.Frequencies and their percentages were calculated for categorical variables.We used logistic regression models for assessing the association between allergy and HNC status (OR with a 95% confidence interval).Potential confounders were adjusted for, namely, age, gender, province, opium use, tobacco smoking, alcohol drinking, socioeconomic status (SES), and decayed, missing, and filled teeth (DMFT).Principal component analysis (PCA) was employed to assess socioeconomic status (SES).PCA is a statistical technique used to reduce the dimensionality of a dataset while retaining most of the variability in the data.In this analysis, SES was determined by combining multiple indicators into a single composite score.The indicators included years of education, which was treated as a continuous variable, and ownership of various assets, which were treated as dichotomous variables (presence or absence).The assets considered were a washing machine, freezer, personal computer, sofa, vacuum cleaner, dishwasher, split air conditioner, owned house, and owned car.By applying PCA, we were able to generate a principal component that captured the most significant variance in the SES-related data.This principal component effectively summarized the SES of each participant based on their educational attainment and asset ownership.Once the PCA was completed, the resulting scores were used to categorize SES into low and high categories.This categorization was done based on the median value of the principal component scores.Participants with scores below the median were classified as having low SES, while those with scores above the median were classified as having high SES.This method allows for a comprehensive and nuanced assessment of SES by incorporating multiple dimensions of socioeconomic factors, ensuring a robust and reliable classification.
Allergy was accounted for asthma, allergic rhinitis, eczema/atopic dermatitis, and food and drug allergies.The doctor diagnosed allergies.Analyses were conducted for HNC and all its subsites, including lip and oral cavity, pharynx, larynx, and other subsites.The P-value for multiplicative interaction between types of allergies (e.g., the interaction between asthma and eczema/atopic dermatitis) was acquired using a Wald test of the interaction coefficient in the logistic regression.

Results
A total of 300 HNSCC cases and 379 controls were involved in this analysis.Of which 38% of cases and 12.66% of controls were opium users (P < 0.0001).Half of the patients were tobacco users, which was significantly different between both groups (53.67% vs. 30.08%;P < 0.0001).Alcohol drinking was rare in both groups (8% vs. 4.49; P = 0.056).Most subjects were of low SES and suffered from poor oral health.Most of our cases were lip and oral cavity cancer (43.3%) and laryngeal cancer (40.67%) (Table 1).
We explored the relationship between allergy and the risk of HNC by subsites (Table 3).We found that the risk of developing pharyngeal cancer in people with a history of allergies was reduced by 73% compared to people without a history of allergies (OR 0.23, 95% CI 0.06, 0.80); however, the association could not be related to any types of allergic diseases such as asthma because of a small sample size of pharyngeal cancer (33 cases).We found that 60% risk of lip and oral cavity (OR 0.40, 95% CI 0.23, 0.69) and laryngeal cancer risk (OR 0.45, 95% CI 0.21, 0.94) among those suffering from any allergies vs. non-allergic participants.Regarding other HNSCC subsites, there was no significant risk reduction (OR 0.59, 95% CI 0.13, 2.61) (Table 3).A significant reduction in lip and oral cavity cancer was associated with allergic rhinitis by 75% (OR 0.25, 95% CI 0.08, 0.73), while the primary allergic disease that was protective for laryngeal cancer, asthma, was 63% (OR 0.37, 95% CI 0.16, 0.88).Our findings could not support the protective role of eczema/ atopic dermatitis, food, and drug allergies for any anatomic subsites of HNSCC (Table 3).The multiplicative interaction of rhinitis and asthma was significantly a protective factor (OR 0.19 (95% CI 0.07, 0.50).We did not detect interactions between other allergic diseases.

Discussion
Our study revealed a significant reduction in the risk of head and neck cancer (HNC) associated with allergy symptoms, with asthma, allergic rhinitis, drug allergy, and food allergy showing particularly noteworthy risk reductions.Interestingly, this protective effect was more pronounced in women than in men, and pharyngeal cancer risk notably declined in patients with a history of allergies.However, the specific type of allergic disease could not be determined due to a low case number.On the other hand, risks of lip and oral cavity cancers decreased significantly, primarily attributed to allergic rhinitis.Conversely, no protective interaction was observed between other types of allergies, such as eczema and atopic dermatitis, and specific subsites of HNSCC.Notably, the amplified connection between allergic rhinitis and asthma emerged as a significant protective factor, while asthma also notably reduced the risk of laryngeal cancer.
Several studies have corroborated our findings regarding the inverse association between cancers and allergies.For instance, a notable meta-analysis done by Hsiao et al. 16 , an inverse association between HNC risk and allergy symptoms was demonstrated (meta-OR 0.76, 95% CI 0.63-0.91).They also found that this association was stronger in case-control studies (meta-OR 0.58, 95% CI0.44-0.78)than in cohort studies (meta-OR 0.91, 95% CI 0.71-1.17).This finding could be due to the fact that the carcinogenic process of HNC with reverse causality may influence the development of allergy symptoms, cannot be ruled out.On the other hand, in cohort studies that do not suffer from reverse causality, the main problem is the low rate of HNC development during the follow-up www.nature.com/scientificreports/period to achieve sufficient statistical power and generate precise effect estimates 24 .In a large population-based case control study with more than a thousand cases conducted by Michuad et al. 17 , individuals with allergies had a 19% lower risk of oropharyngeal and laryngeal cancers but not with oral cancer regardless of gender, smoking habits, and HPV16 serostatus.It is mentioned that their inconsistence result regarding oral cancers can be due to lower power in this subset compared to others.In another case-control study conducted by Craniero et al. 25 their results indicate a potential protective role of allergies against the development of head and neck cancer, with a notably stronger effect observed in female patients.
The inverse relationship between HNC and allergies has been explained by two main hypotheses; the ''immunosurveillance hypothesis'' and the ''prophylaxis hypothesis'' .While the former attributes the protective effect to an overactive immune system detecting and eradicating malignant cells, the latter suggests that allergies aid in expelling pathogens or toxins from the body, thus preventing cancer development.Sherman et al. observed that the inverse reaction between HNC and allergies was more common in tissues that had the most contact with the external environment, such as the mouth, skin, gastrointestinal tract, etc.So, this led them to conclude that the site-specific inverse relation between particular cancers and allergies is better explained by the ''prophylaxis hypothesis'' 9 .
Our case-control study also appears to be in line with the ''prophylaxis hypothesis' because the highest rates of inverse association were seen in sites with the most interference with the external environment (Lip, Oral cavity, Pharynx, and Larynx), "immunosurveillance hypotheses cannot be overlooked.Biological and immunological explanations should also be addressed for the inverse effect between allergies and cancers.
Biomarkers connecting allergies and cancers have been reviewed in only two studies 24,26 .A study comparing levels of cytokines between allergic rhinitis and HNSCC noticed no difference among their studied cytokines and interleukins (IL).The studied biomarkers were IL-2, IL-4, IL5, IL-8, IL-12, IL-13, IL-1β, IL-17, IFN-γ, TNF-α monocyte chemoattractant protein-1 (MCP)-1, macrophage inflammatory protein (MIP)-1β, granulocyte and macrophage colony-stimulating factor (GM-CSF), granulocyte and macrophage colony-stimulating factor Table 1.Distribution of demographics and habits for head and neck squamous cell carcinoma cases and controls.*Regular opium user was defined as using opium at least once a week for at least 6 consecutive months.*Regular tobacco smoking was defined as smoking tobacco at least once a week for at least 6 consecutive months.*Regular alcohol drinking was defined as drinking any alcohol at least once a week for at least 6 consecutive months.www.nature.com/scientificreports/(G-CSF), and immunity related to the T cells (IL-6, IL-7, IL-10) 24 .Another study that compared cytokine concentrations in breast cancer patients also found no differences in (IL-6, IL-1β, IFN-γ, or IL-4) between allergy and cancer groups 26 .The results of this study, together with others mentioned in the literature, showed no difference in T helper-1 and T helper-2 related cytokines ((IL-2, IL-12, IFN-γ, TNF-α) and (IL-4, IL5, IL-13), respectively) in the association between cancer and allergic developments because of type I hypersensitivity reactions.This  www.nature.com/scientificreports/outcome opposes epidemiological study-based theories in which differences in Th1 and Th2-related cytokines had been proposed [27][28][29] .
Recent studies have moved past the immune system's Th1/Th2 theory.Subgroups of cells such as Th3, Th9, Th17, regulatory T cells, and follicular Th have demonstrated that these interactions are much more significant.Another theory relies on studies proposing that T CD4+ lymphocytes are not as inflexible as Th1 or Th2, which only produce a few cytokines 30,31 and also facilitate the conversion of effector cells such as Th1, Th2, Th17, or regulatory T cells [32][33][34] .Under the influence of specific cytokines, T cell subsets can become diverse cytokine-secreting cells (34-37).Other than immune-modulating cytokines such as IL-10, IL-17, IL-23, and TGF-β (assisting tumor growth), IFN-γ, TNF-α, GM-CSF, IL-2, IL-6, IL-17, and IL-1 stimulate immune surveillance and prevent tum development 28,35 .Other mediators were also studied to define a relation between other cytokines in the connection between cancer and allergies.In a study by Lippitz et al., IL-2 (a regulatory cytokine) and TGF-β were increased.At the same time, IL-1β, IL-4, and IL-17 levels were reduced, demonstrating the immunosuppressive nature of cancer patients and a lower occurrence of allergies.These discoveries and specific cytokine levels in tumors confirm the distinction of the adverse immune response created by different cancer types 36 .In a study by Carniero et al., a moderate association between IgE and IL-17 and TGF-β levels was observed in the prostate adenocarcinoma, proposing an allergy marker with immunosuppressive reaction specified for this tumor type 25 .These findings underscore the complexity of the immune landscape in cancer and allergy interactions, shedding light on potential markers and therapeutic targets for different tumor types.
While our study provides valuable insights into the relationship between allergies and head and neck cancer, it is important to acknowledge certain limitations that may have influenced our findings.One of the limitations of our study is the lack of assessment of HPV infection.HPV is known to be a significant risk factor for certain types of head and neck cancers, particularly oropharyngeal cancers.The absence of data on HPV status in our cases and controls may have influenced our results, as the risk profile could differ between HPV-positive and HPV-negative individuals.Future studies should consider incorporating HPV status into the analysis to provide a more comprehensive understanding of the relationship between allergies and head and neck cancer risk.Furthermore, our study could not eliminate recall bias despite many cases and two-step data collection.Additionally, due to the hospital-based nature of this study, we were unable to ascertain whether the cases and controls originated from the same population.
The strengths of our study include meticulous data collection utilizing structured questionnaires administered by professional interviewers, a large sample size to mitigate selection bias and enhance statistical power, and rigorous adjustment for potential confounders such as smoking and alcohol consumption.

Conclusion
Various mechanisms responsible for the relationship between allergies and cancers require further studies with larger sample sizes, more immune biomarkers and their relationships on a molecular level, and genetic diversity to confirm a causal association between HNC and allergy.Recognizing this association and its mechanisms could help scientists to develop effective strategies to treat and even prevent HNC by producing new immunotherapy and immune prophylaxis for this disease. https://doi.org/10.1038/s41598-024-65051-y

Table 2 .
The associations of allergy with head and neck squamous cell carcinoma by allergic diseases.*OR adjusted for age, sex, place of residence, oral health, SES, tobacco smoking, opium use, and alcohol drinking.*Regular opium user was defined as using opium at least once a week for at least 6 consecutive months.*Regular tobacco smoking was defined as smoking tobacco at least once a week for at least 6 consecutive months.*Regular alcohol drinking was defined as drinking any alcohol at least once a week for at least 6 consecutive months.

Table 3 .
The associations of allergy with head and neck squamous cell carcinoma by subsites.*OR adjusted for age, sex, place of residence, oral health, SES, tobacco smoking, opium use, alcohol drinking.